Given a tank with definite height and radius and the flow of water available to fill the tank. Determine whether the tank will overflow or not in a given amount of time.
Note: The flow of water will be available in volume per minute.
Examples:
--r=5-- ---------- ^ | | | | | | | | h = 10 | | | ---------- ^ rate_of_flow = 10 Input : given_time = 10.0 Output : Underflow Input : given_time = 100.0 Output : Overflow
Approach:
Volume of a cylindrical tank is (22/7) * radius * radius * height. First, find out the amount of time required to completely fill the tank then compare it with the given time. If the given time is greater than required time, it will result in an overflow condition. If the given time is less than the required time then it will result in an underflow condition otherwise the tank is filled.
Below is the implementation of above approach:
// C++ program to check if Tank will // overflow or not in given time #include <bits/stdc++.h> using namespace std;
// function to calculate the volume of tank float volume( int radius, int height)
{ return ((22 / 7) * radius * radius * height);
} // function to print overflow / filled / // underflow accordingly void check_and_print( float required_time,
float given_time)
{ if (required_time < given_time)
cout << "Overflow" ;
else if (required_time > given_time)
cout << "Underflow" ;
else
cout << "Filled" ;
} // driver function int main()
{ int radius = 5, // radius of the tank
height = 10, // height of the tank
rate_of_flow = 10; // rate of flow of water
float given_time = 70.0; // time given
// calculate the required time
float required_time = volume(radius, height) /
rate_of_flow;
// printing the result
check_and_print(required_time, given_time);
return 0;
} |
// Java program to check if Tank will // overflow or not in given time class Number
{ // function to calculate the volume of tank
public static float volume( int radius, int height)
{
return (( 22 / 7 ) * radius * radius * height);
}
// function to print overflow / filled /
// underflow accordingly
public static void check_and_print( double required_time,
double given_time)
{
if (required_time < given_time)
System.out.print( "Overflow" );
else if (required_time > given_time)
System.out.print( "Underflow" );
else
System.out.print( "Filled" );
}
// driver code
public static void main(String[] args)
{
int radius = 5 , // radius of the tank
height = 10 , // height of the tank
rate_of_flow = 10 ; // rate of flow of water
double given_time = 70.0 ; // time given
// calculate the required time
double required_time = volume(radius, height) /
rate_of_flow;
// printing the result
check_and_print(required_time, given_time);
}
} // This code is contributed by rishabh_jain |
# Python3 code to check if Tank will # overflow or not in given time # function to calculate the volume of tank def volume(radius, height):
return (( 22 / 7 ) * radius * radius * height)
# function to print overflow / filled / # underflow accordingly def check_and_print( required_time, given_time):
if required_time < given_time:
print ( "Overflow" )
elif required_time > given_time:
print ( "Underflow" )
else :
print ( "Filled" )
# driver code radius = 5 # radius of the tank
height = 10 # height of the tank
rate_of_flow = 10 # rate of flow of water
given_time = 70.0 # time given
# calculate the required time required_time = volume(radius, height) / rate_of_flow
# printing the result check_and_print(required_time, given_time) # This code is contributed by "Sharad_Bhardwaj". |
// C# program to check if Tank will // overflow or not in given time using System;
class Number {
// function to calculate the volume of tank
public static float volume( int radius, int height)
{
return ((22 / 7) * radius * radius * height);
}
// function to print overflow / filled /
// underflow accordingly
public static void check_and_print( double required_time,
double given_time)
{
if (required_time < given_time)
Console.WriteLine( "Overflow" );
else if (required_time > given_time)
Console.WriteLine( "Underflow" );
else
Console.WriteLine( "Filled" );
}
// driver code
public static void Main()
{
int radius = 5, // radius of the tank
height = 10, // height of the tank
rate_of_flow = 10; // rate of flow of water
double given_time = 70.0; // time given
// calculate the required time
double required_time = volume(radius, height) / rate_of_flow;
// printing the result
check_and_print(required_time, given_time);
}
} // This code is contributed by vt_m |
<?php // PHP program to check if Tank will // overflow or not in given time // function to calculate // the volume of tank function volume( $radius , $height )
{ return ((22 / 7) * $radius *
$radius * $height );
} // function to print overflow // / filled / underflow accordingly function check_and_print( $required_time ,
$given_time )
{ if ( $required_time < $given_time )
echo ( "Overflow" );
else if ( $required_time > $given_time )
echo ( "Underflow" );
else
echo ( "Filled" );
} // Driver code // radius of the tank $radius = 5;
// height of the tank $height = 10;
// rate of flow of water $rate_of_flow = 10;
// time given $given_time = 70.0;
// calculate the required time $required_time = volume( $radius , $height ) /
$rate_of_flow ;
// printing the result check_and_print( $required_time , $given_time );
// This code is contributed by Ajit. ?> |
<script> // JavaScript program to check if Tank will // overflow or not in given time // function to calculate the volume of tank
function volume(radius, height)
{
return ((22 / 7) * radius * radius * height);
}
// function to print overflow / filled /
// underflow accordingly
function check_and_print(required_time,
given_time)
{
if (required_time < given_time)
document.write( "Overflow" );
else if (required_time > given_time)
document.write( "Underflow" );
else
document.write( "Filled" );
}
// Driver code let radius = 5, // radius of the tank
height = 10, // height of the tank
rate_of_flow = 10; // rate of flow of water
let given_time = 70.0; // time given
// calculate the required time
let required_time = volume(radius, height) /
rate_of_flow;
// printing the result
check_and_print(required_time, given_time);
</script> |
Output:
Underflow
Time Complexity: O(1)
Auxiliary Space: O(1)